CN116593098B - Gas detection device for infusion apparatus catheter and use method thereof - Google Patents

Abstract

The invention relates to the technical field of gas detection, in particular to a gas detection device of an infusion apparatus catheter and a use method thereof. According to the gas detection device of the infusion apparatus catheter and the use method thereof, two ends of the catheter are embedded into bayonets on the turntables at two sides one by one, the two ends of the catheter are brought into the circular shell along with rotation of the turntables, damping pads on the calipers are contacted with the inner wall of the circular shell to generate a blocking effect, and the calipers are pushed to deflect and clamp the flat catheter, so that the catheter is automatically restrained on the turntables along the bayonets, the catheter is controlled to move for subsequent detection, on one hand, the catheter is not required to be manually loaded one by one, the efficiency of the whole detection work is optimized, on the other hand, the effect is realized without precise electrical elements, the use and maintenance cost is reduced, and meanwhile, continuous assembly line detection can be realized by utilizing the turntables to load and release the catheter, and the detection work is not suspended due to replacement of the catheter.

Description

Gas detection device for infusion apparatus catheter and use method thereof

Technical Field

The invention relates to the technical field of gas detection, in particular to a gas detection device of an infusion apparatus catheter and a use method thereof.

Background

The infusion tube is one of medical consumables frequently seen in life of us, is called a disposable intravenous infusion set in medicine, can establish a channel between a vein and liquid medicine through aseptic treatment, and is used for intravenous infusion, and the intravenous infusion is a method for inputting a large amount of aseptic liquid, electrolyte and medicine into a body through the vein by utilizing the atmospheric pressure and hydrostatic pressure principles. Therefore, the conduit part forming the infusion apparatus needs to have good air tightness, so that the infusion apparatus conduit is required to be subjected to air measurement and detection in the production link, and the existing air measurement and detection is troublesome in operation due to the lack of special detection equipment, and therefore, the operation and judgment are carried out manually by workers.

The prior patent (publication number: CN 114964639B) discloses a gas detection device of an infusion apparatus catheter, comprising a box body: the testing mechanism is installed in the left side of box, adjustment mechanism is installed in the left side of testing mechanism, the top of box is provided with the controller, the inside below of box is embedded to have water pump module, water pump module and controller electric connection, air pump module is installed to the inside top of box, air pump module and controller electric connection. Above-mentioned current gas measuring equipment mainly relies on to the intraductal gas injection of pipe, then sinks in the aquatic, and whole operation is troublesome, needs to observe intraductal gaseous state alone, and observe the step inconvenient enough, and the pipe dismouting before and after observing, classification still need manual operation.

In view of this, we propose a gas detection device for infusion set catheter and its method of use.

Disclosure of Invention

The invention aims to provide a gas detection device of an infusion apparatus catheter and a use method thereof, which aim to solve the problems that in the prior art, the existing gas detection equipment mainly depends on gas injection into the catheter and then sinks into water, the whole operation is troublesome, the gas in the catheter needs to be observed singly, the observation step is inconvenient, and the disassembly and classification of the catheter before and after observation are also required to be operated manually. In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a gas detection device that surveys of transfusion system pipe, includes the drain pan, the top fixed mounting of drain pan has the circle shell, and the front side of circle shell has seted up the front opening, front opening internal fixation is provided with the pipe steamer tray, and the pipe steamer tray is the slope setting.

The circular shell is internally provided with a holding device, and the side surface of the circular shell is fixedly provided with a motor for driving the holding device.

Preferably, the holder comprises a shaft rod rotatably connected in the circular shell, and one end of the shaft rod penetrates through the circular shell and is connected with the rotating shaft of the motor.

The surface fixed mounting of axostylus axostyle has the carousel with the adaptation of circle shell inner wall, and the quantity of carousel is two, two the carousel is bilateral symmetry setting along the axostylus axostyle.

The outer ring of carousel has seted up a plurality of bayonet socket with pipe adaptation, and is provided with the calliper in the bayonet socket, be connected through elastic material between calliper and the bayonet socket, and the surface fixed mounting of calliper has the damping pad with circular shell inner wall adaptation.

And a closed tube component matched with the catheter is arranged in the circular shell.

Preferably, the tube closing assembly comprises two guide rails arranged in the circular shell, and the two guide rails are respectively and fixedly arranged on the inner walls of the left side and the right side of the circular shell through supporting legs.

The surface of the turntable opposite to one side of the guide rail is fixedly provided with a plurality of concave seats, the concave seats are in one-to-one correspondence with the bayonets, the inner sides of the concave seats are rotationally connected with connecting rods, and the connecting rods are of V-shaped structures.

One end fixedly connected with slide fastener of connecting rod, the slide fastener is set to C shape structure, and slide fastener carries out sliding connection along the guide rail, the remaining one end fixed mounting of connecting rod has the taper plug with pipe adaptation.

The guide rail is composed of an inner rail and an outer rail, the inner rail is arranged close to one side of the turntable, the outer rail is arranged far away from the turntable, the connecting rod is pulled to push the taper plug to the bayonet when the slide fastener slides into the outer rail, and the connecting rod is pushed to pull the taper plug out of the bayonet when the slide fastener slides into the inner rail.

And a water injection detector is arranged on the circular shell and the conical plug.

Preferably, the water injection detector comprises water injection seats fixedly arranged on the inner bottom wall of the circular shell, the number of the water injection seats is two, and the two water injection seats are symmetrically arranged at the junction of the inner walls of the left side and the right side of the circular shell and the bottom wall.

The side surface of the water injection seat is provided with an arc groove for the taper plug to pass through, a sliding block is connected in the arc groove in a sliding way, and one side of the sliding block is cut with an inclined plane for the taper plug to press against.

The water injection seat is internally provided with a water cavity, and a water pipe for supplying water to the water cavity is fixedly arranged on the water injection seat.

The surface fixing of slider alternates there is the pillar, the outer end of pillar runs through slider and taper plug adaptation, and the inner of pillar runs through the water injection seat and extend to in the water cavity, the inner fixed mounting of pillar has the back taper head, and the back taper head surface offered with the inside water hole of intercommunication of pillar, offer on the inner wall of water cavity with the awl groove of back taper head adaptation, and seal the water hole when back taper head embedding awl groove.

The taper plug is provided with a through hole for communicating the column tube and the guide tube, and a one-way valve is arranged in the through hole.

The inside of circle shell is provided with rather than inner wall complex splint, splint and circle shell inner wall clearance are 0.7 times of pipe external diameter, and the bottom of splint is established to the horn mouth that enlarges the clearance, the upside of fore-mouth is provided with the conveyer belt that corresponds with the splint top, splint pass through the support and install along the side shell of conveyer belt.

Preferably, a cotton pad is arranged on the inner wall of the round shell.

Preferably, a bottom opening corresponding to the horn mouth is formed in the bottom of the round shell.

Preferably, the upper side wall and the lower side wall of the arc groove are respectively provided with a limiting groove, limiting blocks are fixedly arranged on the upper side and the lower side of the surface of the sliding block, and the sliding block is in sliding connection along the limiting grooves through the limiting blocks.

The application method of the gas detection device of the infusion apparatus catheter comprises the following steps:

s1, a motor is started to drive a shaft rod and a rotary table to rotate, a guide pipe is stacked in a guide pipe drawer, the guide pipe slides to a front opening along an inclined plane in the drawer, the guide pipe is aligned with the guide pipe drawer one by one along with the circular motion of a bayonet on the rotary table, two ends of the guide pipe in the drawer are embedded into the bayonets on the rotary tables on two sides one by one and are brought into a circular shell along with the rotation of the rotary table, in the process, a damping pad on a caliper is contacted with the inner wall of the circular shell to generate a blocking effect, and the caliper is pushed to bias the flat guide pipe, so that the guide pipe is automatically restrained on the rotary table along the bayonets, and the guide pipe is controlled to move for subsequent detection;

s2, pushing the slider to slide into the outer rail from the inner rail by the concave seat which moves synchronously with the bayonet, at the moment, pushing the connecting rod by the slider to push the taper plug to the bayonet so as to insert the taper plug into the end part of the conduit, extruding the taper plug inserted into the pipe end along the deformation part of the conduit with the calipers and the turntable as the pipe body of the conduit is flattened, pushing the connecting rod to pull the taper plug out of the conduit as the slider slides into the inner rail from the outer rail, enabling the inside of the conduit to be communicated with the outside, and discharging the detection water;

s3, after the taper plug is inserted and sealed and limited along the end part of the guide pipe, the rotary turntable drives the taper plug to pass through an arc groove of the water injection seat, the taper plug is propped against the sliding block to move inwards, a column pipe on the sliding block moves synchronously and pushes the inverted cone head out of the taper groove, so that water in the water cavity is injected into the taper plug along the water hole and the column pipe, passes through the one-way valve along the through hole and enters the guide pipe, and the taper plug rotates out of the arc groove to stop water;

s4, the catheter filled with water in a bulge state further rotates along with the rotary table until the catheter enters the horn mouth, the catheter can be extruded by the gradually narrowed horn mouth, if the catheter has no crack, the air tightness is good, the water in the catheter cannot be extruded, the catheter in the bulge state is intercepted by the clamping plate and the horn mouth, at the moment, the taper plug is gradually pulled out along the guide rail to release the pressure lock on the catheter, the rotary table continuously rotates to enable the catheter to be pulled out of the clamping plate from the bayonet and fall and discharged, if the catheter has the crack to influence the air tightness, the water in the catheter is extruded, the catheter cannot keep continuous bulge, the catheter passes through the clamping plate along with the rotation of the rotary table until reaching the front opening, the calipers loosen the catheter, and the catheter falls on the conveying belt to be recovered, so that the airtight detection of the catheter is realized, and different catheters are separated according to detection results, and classification treatment is carried out.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the two ends of the guide pipe are embedded into the bayonets on the rotating discs at two sides one by one and are brought into the circular shell along with the rotation of the rotating discs, the damping pad on the caliper is contacted with the inner wall of the circular shell to generate a blocking effect, and the caliper is pushed to deflect and clamp the flat guide pipe, so that the guide pipe is automatically restrained on the rotating disc along the bayonets, and is convenient to control the guide pipe to move for subsequent detection, on one hand, the guide pipe is not required to be loaded one by one manually, the efficiency of the whole detection work is optimized, on the other hand, the effect is realized without precise electrical elements, the use and maintenance cost is reduced, and meanwhile, the continuous guide pipe loading and guide pipe releasing are realized by utilizing the rotating discs, so that uninterrupted pipeline detection can be realized, and the detection work is not suspended due to the replacement of the guide pipe.

According to the invention, the slide fastener is pushed by the concave seat to slide into the outer rail from the inner rail, at the moment, the slide fastener pulls the connecting rod to push the taper plug to the bayonet so as to insert the taper plug into the end part of the guide pipe, and the taper plug inserted into the end part of the guide pipe is extruded and combined with the calipers and the rotary table along the deformation part of the guide pipe, so that the sealing property of the end part of the guide pipe is enhanced outside the taper plug inserted and blocked into the guide pipe, the air tightness of the guide pipe in the subsequent water injection detection is ensured, and the connecting rod is pushed to pull the taper plug out of the guide pipe to communicate the inside and the outside of the guide pipe along with the slide fastener sliding into the inner rail from the outer rail, so that the detection water is discharged, and all processes of closing and opening the guide pipe are switched through mutual displacement between the rotary table and the guide rail without external control, and the suitability of the detection process is more stable.

According to the invention, the taper plug penetrates through the arc groove of the water injection seat, the taper plug is propped against the sliding block to move inwards, the column pipe on the sliding block moves synchronously and pushes the inverted cone head out of the taper groove, so that water in the water cavity is injected into the taper plug along the water hole and the column pipe and enters the guide pipe along the through hole through the one-way valve, the water is stopped when the taper plug rotates out of the arc groove, the water injection process is started and stopped by the movement of the turntable, the water injection quantity is stable, independent control and monitoring are not needed, and the use convenience is good.

According to the invention, the conduit filled with water in a swelling state further rotates along with the turntable until the conduit enters the bell mouth, the conduit is extruded by the gradually narrowed bell mouth, if the conduit has no crack, the air tightness is good, the water in the conduit cannot be extruded, the conduit in the swelling state is intercepted by the clamping plate and the bell mouth, at the moment, the taper plug is gradually pulled out along the guide rail to release the pressure lock on the conduit, the continuously rotating turntable enables the conduit to be pulled out from the bayonet and fall down to be discharged, if the conduit has the crack to influence the air tightness, the water in the conduit is extruded, the continuously swelling conduit cannot be kept, the conduit passes through the clamping plate along with the rotation of the turntable until reaching the front opening, the calipers loosen the conduit, the conduit falls on the conveyor belt to be recovered, thus the air tightness detection of the conduit is realized, and different conduits are separated according to detection results, classification treatment is carried out, on one hand, automatic detection is realized according to physical test, the detection convenience is improved, on the other hand, the conduit after detection is not required to be classified and collected by operators, the manual operation of auxiliary is reduced, and the degree of automation is high.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of a round shell according to the present invention;

FIG. 3 is a perspective cross-sectional view of a round shell according to the present invention;

FIG. 4 is an enlarged view of the invention at A in FIG. 3;

FIG. 5 is a schematic perspective view of a turntable and a shaft according to the present invention;

FIG. 6 is a schematic view of a bayonet and a caliper according to the present invention;

FIG. 7 is a schematic plan view of a caliper holding catheter of the present invention;

FIG. 8 is a perspective cross-sectional view of a circular shell and a clamping plate according to the present invention;

FIG. 9 is a schematic perspective view of a circular shell and a guide rail according to the present invention;

fig. 10 is a perspective structural sectional view of the water injection seat in the present invention.

In the figure: 1. a bottom case; 2. a round shell; 3. a front opening; 4. a conduit drawer; 5. a carrier; 51. a shaft lever; 52. a turntable; 53. a bayonet; 54. a caliper; 55. a damping pad; 56. a closed tube assembly; 561. a guide rail; 5611. an inner rail; 5612. an outer rail; 562. a recess; 563. a connecting rod; 564. a slide fastener; 565. a conical plug; 566. a water injection detector; 5661. a water injection seat; 5662. an arc groove; 5663. a slide block; 5664. a water chamber; 5665. a column tube; 5666. inverted cone head; 5667. a water hole; 5668. a conical groove; 5669. a through hole; 56610. a one-way valve; 56611. a clamping plate; 56612. a horn mouth; 56613. a conveyor belt; 6. and a motor.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which are obtained by a worker of ordinary skill in the art without creative efforts, are within the protection scope of the present invention based on the embodiments of the present invention.

Referring to fig. 1 to 10, the present invention provides a technical solution: the utility model provides a gas detection device of transfusion system pipe, includes drain pan 1, and the top of drain pan 1 is fixed mounting has circle shell 2, and has seted up front mouth 3 in the front side of circle shell 2, and front mouth 3 internal fixation is provided with pipe steamer tray 4, and pipe steamer tray 4 is the slope setting, stacks the pipe in the pipe steamer tray 4 to utilize the inclined plane to send the pipe into circle shell 2 along front mouth 3;

a holder 5 is arranged in the round shell 2, and a motor 6 for driving the holder 5 is fixedly arranged on the side surface of the round shell 2.

In this embodiment, as shown in fig. 1, 2, 3, 4, and 5 to 10, the carrier 5 includes a shaft 51 rotatably connected in the circular shell 2, and one end of the shaft 51 penetrates through the circular shell 2 and is connected to the rotating shaft of the motor 6;

the surface of the shaft rod 51 is fixedly provided with two turntables 52 which are matched with the inner wall of the round shell 2, the two turntables 52 are symmetrically arranged left and right along the shaft rod 51, and when in use, the motor 6 is started to drive the shaft rod 51 and the turntables 52 to rotate;

the outer ring of the turntable 52 is provided with a plurality of bayonets 53 which are matched with the guide pipes, the bayonets 53 on the turntable 52 are aligned with the guide pipe drawers 4 one by one along with the circular motion of the bayonets 53 on the turntable 52, the two ends of the guide pipes in the drawers are embedded into the bayonets 53 on the turntable 52 on two sides one by one and are brought into the round shell 2 along with the rotation of the turntable 52, the bayonets 53 are internally provided with calipers 54, the calipers 54 are connected with the bayonets 53 through elastic materials, the outer surfaces of the calipers 54 are fixedly provided with damping pads 55 which are matched with the inner wall of the round shell 2, the damping pads 55 on the calipers 54 are contacted with the inner wall of the round shell 2 to generate a blocking effect, and the calipers 54 are pushed to deflect and clamp the flat guide pipes, so that the guide pipes are automatically restrained on the turntable 52 along the bayonets 53;

a closed tube assembly 56 which is matched with the catheter is arranged in the round shell 2.

In this embodiment, as shown in fig. 1, 2, 3, 4, and 5 to 10, the closed tube assembly 56 includes two guide rails 561 disposed in the circular shell 2, and the two guide rails 561 are fixedly mounted on the inner walls of the left and right sides of the circular shell 2 through legs, respectively;

a plurality of concave seats 562 are fixedly arranged on the surface of the turntable 52 opposite to one side of the guide rail 561, the concave seats 562 are in one-to-one correspondence with the bayonets 53, a connecting rod 563 is rotationally connected to the inner side of the concave seats 562, and the connecting rod 563 is of a V-shaped structure;

one end of the connecting rod 563 is fixedly connected with a slide button 564, the slide button 564 is of a C-shaped structure, the slide button 564 is in sliding connection along the guide rail 561, and the rest one end of the connecting rod 563 is fixedly provided with a taper plug 565 which is matched with the guide pipe;

the guide rail 561 consists of an inner rail 5611 and an outer rail 5612, the inner rail 5611 is arranged close to one side of the turntable 52, the outer rail 5612 is arranged far away from the turntable 52, the connecting rod 563 is pulled to push the taper plug 565 towards the bayonet 53 when the slide button 564 slides into the outer rail 5612, the connecting rod 563 is pushed to pull the taper plug 565 out of the bayonet 53 when the slide button 564 slides into the inner rail 5611, the connecting rod 563 is pulled to push the taper plug 565 towards the bayonet 53 when the slide button 564 slides into the outer rail 5612 from the inner rail 5611, so that the taper plug 565 is inserted into the end part of the guide pipe, the taper plug 565 inserted into the pipe end is extruded with the caliper 54 and the turntable 52 along the deformation part of the guide pipe as the slide button 564 slides into the inner rail 5611, and the connecting rod 563 is pushed to pull the taper plug out of the guide pipe as the slide button 564 slides into the inner rail 5612 from the outer rail 5612, so that the inside of the pipe is communicated with the outside, and the detection water is discharged;

a water injection detector 566 is provided on the round shell 2 and the cone plug 565.

In this embodiment, as shown in fig. 1, 2, 3, 4, and 5 to 10, the water injection detector 566 includes two water injection seats 5661 fixedly installed on the inner bottom wall of the circular shell 2, and the two water injection seats 5661 are symmetrically disposed at the junctions between the inner walls and the bottom wall of the left and right sides of the circular shell 2;

an arc groove 5662 for the cone plug 565 to pass through is formed in the side surface of the water injection seat 5661, after the cone plug 565 is subjected to plugging and limiting along the end part of the catheter, the rotating turntable 52 drives the cone plug 565 to pass through the arc groove 5662 of the water injection seat 5661, a sliding block 5663 is connected in the arc groove 5662 in a sliding manner, and an inclined surface for the cone plug 565 to press against is cut on one side of the sliding block 5663;

a water cavity 5664 is formed in the water injection seat 5661, and a water pipe for supplying water to the water cavity 5664 is fixedly arranged on the water injection seat 5661;

a column tube 5665 is fixedly inserted into the surface of the sliding block 5663, the outer end of the column tube 5665 penetrates through the sliding block 5663 to be matched with the taper plug 565, the inner end of the column tube 5665 penetrates through the water injection seat 5661 to extend into the water cavity 5664, an inverted cone 5666 is fixedly arranged at the inner end of the column tube 5665, a water hole 5667 communicated with the inside of the column tube 5665 is formed in the surface of the inverted cone 5666, a cone groove 5668 matched with the inverted cone 5666 is formed in the inner wall of the water cavity 5664, and the water hole 5667 is sealed when the inverted cone 5666 is embedded into the cone groove 5668;

the taper plug 565 is provided with a through hole 5669 for communicating the column tube 5665 and the conduit, the through hole 5669 is internally provided with a one-way valve 56610, the one-way valve 56610 enables external water to enter the conduit, water in the conduit cannot flow out, the taper plug 565 presses the sliding block 5663 inwards, the column tube 5665 on the sliding block 5663 synchronously moves and pushes the inverted cone head 5666 out of the taper groove 5668, so that water in the water cavity 5664 is injected into the taper plug 565 along the water hole 5667 and the column tube 5665, and enters the conduit through the one-way valve 56610 along the through hole 5669, and the taper plug 565 turns out of the arc groove 5662 to stop water;

the inside of the round shell 2 is provided with a clamping plate 56611 matched with the inner wall of the round shell 2, the gap between the clamping plate 56611 and the inner wall of the round shell 2 is 0.7 times of the outer diameter of the catheter, the bottom end of the clamping plate 56611 is provided with a horn mouth 56612 expanding the gap, the catheter filled with water in a swelling state further rotates along with the turntable 52 until entering the horn mouth 56612, the catheter is extruded by the gradually narrowed horn mouth 56612, the upper side of the front opening 3 is provided with a conveying belt 56613 corresponding to the top end of the clamping plate 56611, the clamping plate 56611 is installed along the side shell of the conveying belt 56613 through a bracket, the catheter filled with water in the swelling state further rotates along with the turntable 52 until entering the horn mouth 56612, the catheter is extruded by the gradually narrowed horn mouth 56612, the water is extruded and cannot keep continuously swelling, the catheter passes through the clamping plate 56611 along with the rotation of the turntable 52 until reaching the front opening 3, and the caliper 54 loosens the catheter to enable the catheter to fall on the conveying belt 56613 to be recovered.

In this embodiment, as shown in fig. 1, 2, 3, 4, and 5 to 10, a cotton pad is disposed on the inner wall of the round shell 2, and the cotton pad contacts with the catheter, so that abrasion of the catheter caused by the hard inner wall of the round shell 2 can be avoided, and meanwhile, the damping effect of the damping pad 55 during contact can be ensured.

In this embodiment, as shown in fig. 1, 2, 3, 4, and 5 to 10, a bottom opening corresponding to the flare 56612 is formed at the bottom of the round shell 2, and the conduit blocked by the clamping plate 56611 along the flare 56612 can be cleared along the bottom opening.

In this embodiment, as shown in fig. 1, 2, 3, 4, and 5 to 10, limiting grooves are formed in upper and lower sidewalls of the arc groove 5662, limiting blocks are fixedly disposed on upper and lower sides of the surface of the sliding block 5663, the sliding block 5663 is slidably connected along the limiting grooves through the limiting blocks, and the limiting blocks and the limiting grooves cooperate to restrict movement of the sliding block 5663, so that the sliding block 5663 can be stably displaced in the arc groove 5662 without being separated from the arc groove 5662.

The application method of the gas detection device of the infusion apparatus catheter comprises the following steps:

s1, a motor 6 is started to drive a shaft rod 51 and a rotary table 52 to rotate, a catheter is stacked in a catheter drawer 4, the catheter slides to a front opening 3 along an inclined plane in the drawer, the catheter is aligned with the catheter drawer 4 one by one along with the circular motion of a bayonet 53 on the rotary table 52, two ends of the catheter in the drawer are embedded into the bayonet 53 on the rotary tables 52 on two sides one by one, and are brought into a round shell 2 along with the rotation of the rotary tables 52, in the process, a damping pad 55 on a caliper 54 contacts with the inner wall of the round shell 2 to generate a blocking effect, and the caliper 54 is pushed to deflect and clamp the flat catheter, so that the catheter is automatically restrained on the rotary table 52 along the bayonet 53, and the catheter is controlled to move for subsequent detection;

s2, a concave seat 562 which synchronously moves along with the bayonet 53 circularly pushes a slide button 564 to slide into an outer rail 5612 from an inner rail 5611, at the moment, the slide button 564 pulls a connecting rod 563 to push a conical plug 565 to the bayonet 53 so as to insert the conical plug 565 into the end part of a conduit, the conical plug 565 inserted into the end part of the conduit is squeezed and combined with a caliper 54 and a turntable 52 along the deformation part of the conduit as the conduit is clamped flat, and when the slide button 564 slides into the inner rail 5611 from the outer rail 5612, the connecting rod 563 is pushed to pull the conical plug 565 out of the conduit so as to communicate the interior of the conduit with the outside, and the water for detection is discharged;

s3, after the taper plug 565 is inserted and sealed and limited along the end part of the conduit, the rotating turntable 52 drives the taper plug 565 to pass through an arc groove 5662 of the water injection seat 5661, the taper plug 565 is propped against the sliding block 5663 to move inwards, a column tube 5665 on the sliding block 5663 synchronously moves and pushes a reverse taper head 5666 out of the taper groove 5668, so that water in the water cavity 5664 is injected into the taper plug 565 along a water hole 5667 and the column tube 5665, and passes through a one-way valve 56610 along a through hole 5669 to enter the conduit, and the taper plug 565 rotates out of the arc groove 5662, namely water is stopped;

s4, the catheter filled with water in a bulge state further rotates along with the rotary table 52 until the catheter enters the horn mouth 56612, the catheter is extruded by the gradually narrowed horn mouth 56612, if the catheter has no crack, the air tightness is good, the water in the catheter cannot be extruded, the catheter in the bulge state is intercepted by the clamping plate 56611 and the horn mouth 56612, at the moment, the taper plug 565 is gradually pulled out along the guide rail 561 to release the pressure lock on the catheter, the continuously rotating rotary table 52 enables the catheter to be pulled out of the clamping plate 56611 and fall down to be discharged, if the catheter has the crack to influence the air tightness, the water in the catheter is extruded, the continuous bulge cannot be kept, the catheter passes through the clamping plate 56611 along with the rotation of the rotary table 52 until the catheter reaches the front mouth 3, the caliper 54 loosens the catheter, the catheter falls on the conveyor belt 56613 to be recovered, so that the air tightness detection of the catheter is realized, and different catheters are separated according to detection results, and classification treatment is carried out.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a gas detection device is surveyed to transfusion system pipe, includes drain pan (1), its characterized in that: the top of the bottom shell (1) is fixedly provided with a round shell (2), the front side of the round shell (2) is provided with a front opening (3), a conduit drawer (4) is fixedly arranged in the front opening (3), and the conduit drawer (4) is obliquely arranged;

a holding device (5) is arranged in the round shell (2), and a motor (6) for driving the holding device (5) is fixedly arranged on the side surface of the round shell (2);

the holder (5) comprises a shaft rod (51) rotatably connected in the round shell (2), and one end of the shaft rod (51) penetrates through the round shell (2) and is connected with a rotating shaft of the motor (6);

the surface of the shaft rod (51) is fixedly provided with two turntables (52) which are matched with the inner wall of the round shell (2), and the two turntables (52) are symmetrically arranged left and right along the shaft rod (51);

the outer ring of the turntable (52) is provided with a plurality of bayonets (53) which are matched with the guide pipes, a caliper (54) is arranged in each bayonet (53), the calipers (54) are connected with each bayonet (53) through elastic materials, and a damping pad (55) which is matched with the inner wall of the round shell (2) is fixedly arranged on the outer surface of each caliper (54);

a closed tube assembly (56) matched with the catheter is arranged in the round shell (2);

the closed tube assembly (56) comprises two guide rails (561) arranged in the round shell (2), and the two guide rails (561) are respectively and fixedly arranged on the inner walls of the left side and the right side of the round shell (2) through supporting legs;

a plurality of concave seats (562) are fixedly arranged on the surface of the turntable (52) opposite to one side of the guide rail (561), the concave seats (562) are in one-to-one correspondence with the bayonets (53), a connecting rod (563) is connected to the inner side of the concave seats (562) in a rotating mode, and the connecting rod (563) is of a V-shaped structure;

one end of the connecting rod (563) is fixedly connected with a slide buckle (564), the slide buckle (564) is of a C-shaped structure, the slide buckle (564) is in sliding connection along the guide rail (561), and the rest one end of the connecting rod (563) is fixedly provided with a taper plug (565) matched with the guide pipe;

the guide rail (561) is composed of an inner rail (5611) and an outer rail (5612), the inner rail (5611) is arranged close to one side of the turntable (52), the outer rail (5612) is arranged far away from the turntable (52), the connecting rod (563) is pulled to push the conical plug (565) to the bayonet (53) when the slider (564) slides into the outer rail (5612), and the connecting rod (563) is pushed to pull the conical plug (565) out of the bayonet (53) when the slider (564) slides into the inner rail (5611);

a water injection detector (566) is arranged on the round shell (2) and the conical plug (565);

the water injection detector (566) comprises water injection seats (5661) fixedly arranged on the inner bottom wall of the circular shell (2), the number of the water injection seats (5661) is two, and the two water injection seats (5661) are symmetrically arranged at the junction of the inner walls of the left side and the right side of the circular shell (2) and the bottom wall;

an arc groove (5662) for the taper plug (565) to pass through is formed in the side surface of the water injection seat (5661), a sliding block (5663) is connected in the arc groove (5662) in a sliding mode, and an inclined plane for the taper plug (565) to abut against is cut on one side of the sliding block (5663);

a water cavity (5664) is formed in the water injection seat (5661), and a water pipe for supplying water to the water cavity (5664) is fixedly arranged on the water injection seat (5661);

the surface of the sliding block (5663) is fixedly penetrated with a column pipe (5665), the outer end of the column pipe (5665) penetrates through the sliding block (5663) to be matched with the conical plug (565), the inner end of the column pipe (5665) penetrates through the water injection seat (5661) to extend into the water cavity (5664), the inner end of the column pipe (5665) is fixedly provided with an inverted cone head (5666), the surface of the inverted cone head (5666) is provided with a water hole (5667) communicated with the inside of the column pipe (5665), the inner wall of the water cavity (5664) is provided with a conical groove (5668) matched with the inverted cone head (5666), and the inverted cone head (5666) is embedded into the conical groove (5668) to seal the water hole (5667);

the conical plug (565) is provided with a through hole (5669) for communicating the column tube (5665) and the catheter, and a one-way valve (56610) is arranged in the through hole (5669);

the inside of circle shell (2) is provided with splint (56611) rather than inner wall complex, splint (56611) are 0.7 times of pipe external diameter with circle shell (2) inner wall clearance, and horn mouth (56612) in expansion clearance are established to the bottom of splint (56611), the upside of fore-mouth (3) is provided with conveyer belt (56613) that corresponds with splint (56611) top, splint (56611) are installed along the side shell of conveyer belt (56613) through the support.

2. The device for detecting the gas in a catheter of an infusion apparatus according to claim 1, wherein: the inner wall of the round shell (2) is provided with a cotton pad.

3. The device for detecting the gas in a catheter of an infusion apparatus according to claim 2, wherein: the bottom of the round shell (2) is provided with a bottom opening corresponding to the horn mouth (56612).

4. A gas detection device for an infusion set catheter according to claim 3, wherein: limiting grooves are formed in the upper side wall and the lower side wall of the arc groove (5662), limiting blocks are fixedly arranged on the upper side and the lower side of the surface of the sliding block (5663), and the sliding block (5663) is connected in a sliding mode along the limiting grooves through the limiting blocks.

5. The method of using a gas detection device for an infusion set catheter according to claim 4, comprising the steps of:

s1, a motor (6) is started to drive a shaft lever (51) and a rotary table (52) to rotate, a guide pipe is stacked in a guide pipe drawer (4), the guide pipe slides to a front opening (3) along an inner inclined plane of the drawer, the guide pipe is aligned with the guide pipe drawer (4) one by one along with a bayonet (53) on the rotary table (52), two ends of the guide pipe in the drawer are embedded into the bayonet (53) on the rotary table (52) on two sides one by one, and the guide pipe is brought into a round shell (2) along with the rotation of the rotary table (52), in the process, a damping pad (55) on a caliper (54) is contacted with the inner wall of the round shell (2) to generate a blocking effect, and the caliper (54) is pushed to deflect and clamp the guide pipe, so that the guide pipe is automatically restrained on the rotary table (52) along the bayonet (53), and the guide pipe is controlled to move for subsequent detection;

s2, a concave seat (562) which synchronously moves along with the bayonet (53) circularly pushes a slide button (564) to slide into an outer rail (5612) from an inner rail (5611), at the moment, the slide button (564) pulls a connecting rod (563) to push a conical plug (565) to the bayonet (53) so as to insert the conical plug (565) into the end part of a conduit, the conical plug (565) inserted into the pipe end is squeezed and combined with a caliper (54) and a turntable (52) along a deformation part of the conduit due to the fact that the pipe body of the conduit is flattened, and when the slide button (564) slides into the inner rail (5611) from the outer rail (5612), the connecting rod (563) is pushed to pull the conical plug (565) out of the conduit, so that the interior of the conduit is communicated with the outside, and detection water is discharged;

s3, after the taper plug (565) is inserted and sealed along the end part of the guide pipe and limited, the rotary disc (52) drives the taper plug (565) to pass through an arc groove (5662) of the water injection seat (5661), the taper plug (565) is propped against the sliding block (5663) to move inwards, a column pipe (5665) on the sliding block (5663) synchronously moves and pushes a reverse taper head (5666) out of the taper groove (5668), so that water in the water cavity (5664) is injected into the taper plug (565) along a water hole (5667) and the column pipe (5665) and passes through a one-way valve (56610) along a through hole (5669) to enter the guide pipe, and the taper plug (565) rotates out of the arc groove (5662) to stop water;

s4, the catheter filled with water in a bulge state further rotates along with the rotary table (52) until the catheter enters the horn mouth (56612), the catheter is extruded by the gradually narrowed horn mouth (56612), if the catheter has no crack, the air tightness is good, the water in the catheter cannot be extruded, the catheter in the bulge state is intercepted by the clamping plate (56611) and the horn mouth (56612), at the moment, the conical plug (565) is gradually pulled out along the guide rail (561) to unlock the pressure lock of the catheter, the continuously rotating rotary table (52) enables the catheter to be pulled out of the bayonet (53) by the clamping plate (56611) and fall to be discharged, if the catheter has cracks to influence air tightness, the water in the catheter cannot be extruded, the catheter cannot continuously bulge, the catheter passes through the clamping plate (56611) along with the rotation of the rotary table (52) until the catheter reaches the front mouth (3), the caliper (54) loosens the catheter, and the catheter falls on the conveyor belt (56613) to be recovered, so that the air tightness detection of the catheter is realized, and different catheters are separated according to detection results, and the treatment is carried out.